A connecting member includes at least one of a tilting allowing structure configured to allow tilting of the connecting member, a buckling allowing structure configured to buckle at a first portion of the connecting member and a bending deformation allowing structure configured to allow the connecting member to be bent at a second portion of the connecting member. When a force equal to or larger than a predetermined force is loaded on the connecting member, an upper portion of an instrument panel can be deformed without being resisted by the connecting member. Further, the connecting member is constructed such that the connecting member does not buckle when a force smaller than the predetermined force is loaded on the connecting member. Therefore, the upper portion of the instrument panel can be prevented from being deformed downward at a normal operating state.

An off road vehicle has an air heater with right and left shells surrounding and supporting a core, with the right and left shells connected by screws extending through ears on one of the shells into bosses on the other shell. Dual air control plates are mounted in the shell on a shaft for pivoting movement. An actuator is linked to the shaft by a swing arm with a guide pin riding in an arced slot of a drive plate rotationally secured to the shaft. The right and left shells are secured to the vehicle using a resilient compressible grommet, with a bushing extending through the grommet and a bolt extending through the bushing and attached into the frame.

A vehicle air conditioner installed in a vehicle includes a condenser that causes heat exchange between a coolant and outside air, and a spray nozzle that sprays water to a portion near the condenser that are provided in each of a front side accommodation space positioned in a lower front portion of the vehicle and a rear side accommodation space positioned in lower rear portion of the vehicle.

A heating, ventilation, and air conditioning (HVAC) system for a vehicle. The HVAC system includes an airflow inlet case defining a fresh air inlet and a recirculation air inlet. The airflow inlet case includes an evaporator and a filter both aligned with an axis of rotation of a blower configured to draw airflow through the airflow inlet case into a heater case. The recirculation air inlet faces the heater case. The airflow inlet case is configured to be mounted on an engine side of a vehicle firewall such that the recirculation air inlet is at the firewall.

A vehicle dashboard includes a trim panel defining an airflow opening. At least one register duct defines a register opening. The at least one register duct is disposed adjacent to the trim panel and the register opening aligns with the airflow opening. At least one demister duct defines a demister opening. The at least one demister duct is disposed adjacent to the trim panel and the demister opening aligns with the airflow opening. A first air deflector slidably engaged with the at least one register duct. A second air deflector slidably engaged with the at least one register duct.

A steering wheel for a motor vehicle is provided, wherein the steering wheel includes a steering-wheel rim, a steering-wheel center, at least one steering-wheel spoke connecting the steering-wheel rim and the steering-wheel center, and an air duct. The air duct is designed to duct an air flow, generated by a ventilation system of the motor vehicle. The air duct comprises at least one air outlet, which is designed in such a way that in the fitted state of the steering wheel the air flow emerging from the air outlet meets a windshield of the motor vehicle. A motor vehicle having the steering wheel is furthermore provided.

The invention is a device, system and method of use for cooling the temperature in the passenger compartment of a vehicle without the need for a power source or moving parts, thus allowing the device to operate when the vehicle engine is turned off.

An air vent for an interior of a motor vehicle, the air vent including a housing including a longitudinal housing axis; an air outlet opening formed by the housing; at least one air louver that is arranged in the housing and that directs an air flow that exits from the air outlet opening, wherein the air outlet opening is provided with an expanded metal cover that includes loops that are enveloped by bars that include bar walls, wherein the bar walls are arranged at a bar wall angle relative to the longitudinal hosing axis, wherein the at least one air louver is arranged at an air louver angle relative to the longitudinal housing axis and includes a proximal air louver edge that is proximal to the expanded metal cover and a distal air louver edge that is distal from the expanded metal cover.

A ventilating device for ventilating a vehicle includes a frame defining an opening and a closing device including at least one closing flap extending in a general direction in the opening. The closing device is movable between open and closed positions such that a passage surface for the air through the ventilating device is smaller than the passage surface for the air when the closing device is in the open position. The flap is movable between open and closed positions and is mounted pivotably on the frame in order to pivot between the open and closed positions. The closing device includes a guide system for guiding the flap, which is arranged between two ends of the flap and includes a guide slot and a pin moving in the guide slot between the open and closed positions.

A climate control system includes a fluid delivery module. The fluid delivery module includes a housing defining a fluid flow path between an inlet and an outlet with the outlet having an elongated, slit-like shape and is not visible within a sight line of a user. The fluid delivery module further includes a fluidic control device disposed within the housing between the inlet and the outlet and movable to vary a direction of the fluid flow path within the housing.